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Characterization of low-energy excited states in the native state ensemble of non-myristoylated and myristoylated neuronal calcium sensor-1.

Biochim. Biophys. Acta. 2011 Feb;1814(2):334-44. Epub 2010 Oct 28
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摘要


Information on the low-energy excited states of a given protein is important as this controls the structural adaptability and various biological functions of proteins such as co-operativity, response towards various external perturbations. In this article, we characterized individual residues in both non-myristoylated (non-myr) and myristoylated (myr) neuronal calcium sensor-1 (NCS-1) that access alternate states by measuring nonlinear temperature dependence of the backbone amide-proton (¹H(N)) chemical shifts. We found that ~20% of the residues in the protein access alternative conformations in non-myr case, which increases to ~28% for myr NCS-1. These residues are spread over the entire polypeptide stretch and include the edges of α-helices and β-strands, flexible loop regions, and the Ca²(+)-binding loops. Besides, residues responsible for the absence of Ca²(+)-myristoyl switch are also found accessing alternative states. The C-terminal domain is more populated with these residues compared to its N-terminal counterpart. Individual EF-hands in NCS-1 show significantly different number of alternate states. This observation prompts us to conclude that this may lead to differences in their individual conformational flexibility and has implications on the functionality. Theoretical simulations reveal that these low-energy excited states are within an energy band of 2-4 kcal/mol with respect to the native state.

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